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P2PNet (ICCV2021 Oral Presentation)

This repository contains codes for the official implementation in PyTorch of P2PNet as described in Rethinking Counting and Localization in Crowds: A Purely Point-Based Framework.

A brief introduction of P2PNet can be found at 机器之心 (almosthuman).

The codes is tested with PyTorch 1.5.0. It may not run with other versions.

Visualized demos for P2PNet

The network

The overall architecture of the P2PNet. Built upon the VGG16, it firstly introduce an upsampling path to obtain fine-grained feature map. Then it exploits two branches to simultaneously predict a set of point proposals and their confidence scores.

Comparison with state-of-the-art methods

The P2PNet achieved state-of-the-art performance on several challenging datasets with various densities.

Methods Venue SHTechPartA
MAE/MSE
SHTechPartB
MAE/MSE
UCF_CC_50
MAE/MSE
UCF_QNRF
MAE/MSE
CAN CVPR'19 62.3/100.0 7.8/12.2 212.2/243.7 107.0/183.0
Bayesian+ ICCV'19 62.8/101.8 7.7/12.7 229.3/308.2 88.7/154.8
S-DCNet ICCV'19 58.3/95.0 6.7/10.7 204.2/301.3 104.4/176.1
SANet+SPANet ICCV'19 59.4/92.5 6.5/9.9 232.6/311.7 -/-
DUBNet AAAI'20 64.6/106.8 7.7/12.5 243.8/329.3 105.6/180.5
SDANet AAAI'20 63.6/101.8 7.8/10.2 227.6/316.4 -/-
ADSCNet CVPR'20 55.4/97.7 6.4/11.3 198.4/267.3 71.3/132.5
ASNet CVPR'20 57.78/90.13 -/- 174.84/251.63 91.59/159.71
AMRNet ECCV'20 61.59/98.36 7.02/11.00 184.0/265.8 86.6/152.2
AMSNet ECCV'20 56.7/93.4 6.7/10.2 208.4/297.3 101.8/163.2
DM-Count NeurIPS'20 59.7/95.7 7.4/11.8 211.0/291.5 85.6/148.3
Ours - 52.74/85.06 6.25/9.9 172.72/256.18 85.32/154.5

Comparison on the NWPU-Crowd dataset.

Methods MAE[O] MSE[O] MAE[L] MAE[S]
MCNN 232.5 714.6 220.9 1171.9
SANet 190.6 491.4 153.8 716.3
CSRNet 121.3 387.8 112.0 522.7
PCC-Net 112.3 457.0 111.0 777.6
CANNet 110.0 495.3 102.3 718.3
Bayesian+ 105.4 454.2 115.8 750.5
S-DCNet 90.2 370.5 82.9 567.8
DM-Count 88.4 388.6 88.0 498.0
Ours 77.44 362 83.28 553.92

The overall performance for both counting and localization.

nAP$_{\delta}$ SHTechPartA SHTechPartB UCF_CC_50 UCF_QNRF NWPU_Crowd
$\delta=0.05$ 10.9% 23.8% 5.0% 5.9% 12.9%
$\delta=0.25$ 70.3% 84.2% 54.5% 55.4% 71.3%
$\delta=0.50$ 90.1% 94.1% 88.1% 83.2% 89.1%
$\delta={{0.05:0.05:0.50}}$ 64.4% 76.3% 54.3% 53.1% 65.0%

Comparison for the localization performance in terms of F1-Measure on NWPU.

Method F1-Measure Precision Recall
FasterRCNN 0.068 0.958 0.035
TinyFaces 0.567 0.529 0.611
RAZ 0.599 0.666 0.543
Crowd-SDNet 0.637 0.651 0.624
PDRNet 0.653 0.675 0.633
TopoCount 0.692 0.683 0.701
D2CNet 0.700 0.741 0.662
Ours 0.712 0.729 0.695

Installation

  • Clone this repo into a directory named P2PNET_ROOT
  • Organize your datasets as required
  • Install Python dependencies. We use python 3.6.5 and pytorch 1.5.0
pip install -r requirements.txt

Organize the counting dataset

We use a list file to collect all the images and their ground truth annotations in a counting dataset. When your dataset is organized as recommended in the following, the format of this list file is defined as:

train/scene01/img01.jpg train/scene01/img01.txt
train/scene01/img02.jpg train/scene01/img02.txt
...
train/scene02/img01.jpg train/scene02/img01.txt

Dataset structures:

DATA_ROOT/
        |->train/
        |    |->scene01/
        |    |->scene02/
        |    |->...
        |->test/
        |    |->scene01/
        |    |->scene02/
        |    |->...
        |->train.list
        |->test.list

DATA_ROOT is your path containing the counting datasets.

Annotations format

For the annotations of each image, we use a single txt file which contains one annotation per line. Note that indexing for pixel values starts at 0. The expected format of each line is:

x1 y1
x2 y2
...

Training

The network can be trained using the train.py script. For training on SHTechPartA, use

CUDA_VISIBLE_DEVICES=0 python train.py --data_root $DATA_ROOT \
    --dataset_file SHHA \
    --epochs 3500 \
    --lr_drop 3500 \
    --output_dir ./logs \
    --checkpoints_dir ./weights \
    --tensorboard_dir ./logs \
    --lr 0.0001 \
    --lr_backbone 0.00001 \
    --batch_size 8 \
    --eval_freq 1 \
    --gpu_id 0

By default, a periodic evaluation will be conducted on the validation set.

Testing

A trained model (with an MAE of 51.96) on SHTechPartA is available at "./weights", run the following commands to launch a visualization demo:

CUDA_VISIBLE_DEVICES=0 python run_test.py --weight_path ./weights/SHTechA.pth --output_dir ./logs/

Acknowledgements

  • Part of codes are borrowed from the C^3 Framework.
  • We refer to DETR to implement our matching strategy.

Citing P2PNet

If you find P2PNet is useful in your project, please consider citing us:

@inproceedings{song2021rethinking,
  title={Rethinking Counting and Localization in Crowds: A Purely Point-Based Framework},
  author={Song, Qingyu and Wang, Changan and Jiang, Zhengkai and Wang, Yabiao and Tai, Ying and Wang, Chengjie and Li, Jilin and Huang, Feiyue and Wu, Yang},
  journal={Proceedings of the IEEE/CVF International Conference on Computer Vision},
  year={2021}
}

Related works from Tencent Youtu Lab

  • [AAAI2021] To Choose or to Fuse? Scale Selection for Crowd Counting. (paper link & codes)
  • [ICCV2021] Uniformity in Heterogeneity: Diving Deep into Count Interval Partition for Crowd Counting. (paper link & codes)

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